aboutsummaryrefslogtreecommitdiffstats
path: root/lib/kernel/src/user.erl
diff options
context:
space:
mode:
Diffstat (limited to 'lib/kernel/src/user.erl')
-rw-r--r--lib/kernel/src/user.erl786
1 files changed, 786 insertions, 0 deletions
diff --git a/lib/kernel/src/user.erl b/lib/kernel/src/user.erl
new file mode 100644
index 0000000000..edf650ec59
--- /dev/null
+++ b/lib/kernel/src/user.erl
@@ -0,0 +1,786 @@
+%%
+%% %CopyrightBegin%
+%%
+%% Copyright Ericsson AB 1996-2009. All Rights Reserved.
+%%
+%% The contents of this file are subject to the Erlang Public License,
+%% Version 1.1, (the "License"); you may not use this file except in
+%% compliance with the License. You should have received a copy of the
+%% Erlang Public License along with this software. If not, it can be
+%% retrieved online at http://www.erlang.org/.
+%%
+%% Software distributed under the License is distributed on an "AS IS"
+%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See
+%% the License for the specific language governing rights and limitations
+%% under the License.
+%%
+%% %CopyrightEnd%
+%%
+-module(user).
+-compile( [ inline, { inline_size, 100 } ] ).
+
+%% Basic standard i/o server for user interface port.
+
+-export([start/0, start/1, start_out/0]).
+-export([interfaces/1]).
+
+-define(NAME, user).
+
+%% Internal exports
+-export([server/1, server/2]).
+
+%% Defines for control ops
+-define(CTRL_OP_GET_WINSIZE,100).
+
+%%
+%% The basic server and start-up.
+%%
+
+start() ->
+ start_port([eof,binary]).
+
+start([Mod,Fun|Args]) ->
+ %% Mod,Fun,Args should return a pid. That process is supposed to act
+ %% as the io port.
+ Pid = apply(Mod, Fun, Args), % This better work!
+ Id = spawn(?MODULE, server, [Pid]),
+ register(?NAME, Id),
+ Id.
+
+start_out() ->
+ %% Output-only version of start/0
+ start_port([out,binary]).
+
+start_port(PortSettings) ->
+ Id = spawn(?MODULE,server,[{fd,0,1},PortSettings]),
+ register(?NAME,Id),
+ Id.
+
+%% Return the pid of the shell process.
+%% Note: We can't ask the user process for this info since it
+%% may be busy waiting for data from the port.
+interfaces(User) ->
+ case process_info(User, dictionary) of
+ {dictionary,Dict} ->
+ case lists:keysearch(shell, 1, Dict) of
+ {value,Sh={shell,Shell}} when is_pid(Shell) ->
+ [Sh];
+ _ ->
+ []
+ end;
+ _ ->
+ []
+ end.
+
+
+server(Pid) when is_pid(Pid) ->
+ process_flag(trap_exit, true),
+ link(Pid),
+ run(Pid).
+
+server(PortName,PortSettings) ->
+ process_flag(trap_exit, true),
+ Port = open_port(PortName,PortSettings),
+ run(Port).
+
+run(P) ->
+ put(read_mode,list),
+ put(unicode,false),
+ case init:get_argument(noshell) of
+ %% non-empty list -> noshell
+ {ok, [_|_]} ->
+ put(shell, noshell),
+ server_loop(P, queue:new());
+ _ ->
+ group_leader(self(), self()),
+ catch_loop(P, start_init_shell())
+ end.
+
+catch_loop(Port, Shell) ->
+ catch_loop(Port, Shell, queue:new()).
+
+catch_loop(Port, Shell, Q) ->
+ case catch server_loop(Port, Q) of
+ new_shell ->
+ exit(Shell, kill),
+ catch_loop(Port, start_new_shell());
+ {unknown_exit,{Shell,Reason},_} -> % shell has exited
+ case Reason of
+ normal ->
+ put_chars("*** ", Port, []);
+ _ ->
+ put_chars("*** ERROR: ", Port, [])
+ end,
+ put_chars("Shell process terminated! ***\n", Port, []),
+ catch_loop(Port, start_new_shell());
+ {unknown_exit,_,Q1} ->
+ catch_loop(Port, Shell, Q1);
+ {'EXIT',R} ->
+ exit(R)
+ end.
+
+link_and_save_shell(Shell) ->
+ link(Shell),
+ put(shell, Shell),
+ Shell.
+
+start_init_shell() ->
+ link_and_save_shell(shell:start(init)).
+
+start_new_shell() ->
+ link_and_save_shell(shell:start()).
+
+server_loop(Port, Q) ->
+ receive
+ {io_request,From,ReplyAs,Request} when is_pid(From) ->
+ server_loop(Port, do_io_request(Request, From, ReplyAs, Port, Q));
+ {Port,{data,Bytes}} ->
+ case get(shell) of
+ noshell ->
+ server_loop(Port, queue:snoc(Q, Bytes));
+ _ ->
+ case contains_ctrl_g_or_ctrl_c(Bytes) of
+ false ->
+ server_loop(Port, queue:snoc(Q, Bytes));
+ _ ->
+ throw(new_shell)
+ end
+ end;
+ {Port, eof} ->
+ put(eof, true),
+ server_loop(Port, Q);
+
+ %% Ignore messages from port here.
+ {'EXIT',Port,badsig} -> % Ignore badsig errors
+ server_loop(Port, Q);
+ {'EXIT',Port,What} -> % Port has exited
+ exit(What);
+
+ %% Check if shell has exited
+ {'EXIT',SomePid,What} ->
+ case get(shell) of
+ noshell ->
+ server_loop(Port, Q); % Ignore
+ _ ->
+ throw({unknown_exit,{SomePid,What},Q})
+ end;
+
+ _Other -> % Ignore other messages
+ server_loop(Port, Q)
+ end.
+
+
+get_fd_geometry(Port) ->
+ case (catch port_control(Port,?CTRL_OP_GET_WINSIZE,[])) of
+ List when is_list(List), length(List) =:= 8 ->
+ <<W:32/native,H:32/native>> = list_to_binary(List),
+ {W,H};
+ _ ->
+ error
+ end.
+
+
+%% NewSaveBuffer = io_request(Request, FromPid, ReplyAs, Port, SaveBuffer)
+
+do_io_request(Req, From, ReplyAs, Port, Q0) ->
+ case io_request(Req, Port, Q0) of
+ {_Status,Reply,Q1} ->
+ io_reply(From, ReplyAs, Reply),
+ Q1;
+ {exit,What} ->
+ send_port(Port, close),
+ exit(What)
+ end.
+
+%% New in R13B
+%% Encoding option (unicode/latin1)
+io_request({put_chars,unicode,Chars}, Port, Q) -> % Binary new in R9C
+ put_chars(wrap_characters_to_binary(Chars,unicode,
+ case get(unicode) of
+ true -> unicode;
+ _ -> latin1
+ end), Port, Q);
+io_request({put_chars,unicode,Mod,Func,Args}, Port, Q) ->
+ Result = case catch apply(Mod,Func,Args) of
+ Data when is_list(Data); is_binary(Data) ->
+ wrap_characters_to_binary(Data,unicode,
+ case get(unicode) of
+ true -> unicode;
+ _ -> latin1
+ end);
+ Undef ->
+ Undef
+ end,
+ put_chars(Result, Port, Q);
+io_request({put_chars,latin1,Chars}, Port, Q) -> % Binary new in R9C
+ Data = case get(unicode) of
+ true ->
+ unicode:characters_to_binary(Chars,latin1,unicode);
+ false ->
+ erlang:iolist_to_binary(Chars)
+ end,
+ put_chars(Data, Port, Q);
+io_request({put_chars,latin1,Mod,Func,Args}, Port, Q) ->
+ Result = case catch apply(Mod,Func,Args) of
+ Data when is_list(Data); is_binary(Data) ->
+ unicode:characters_to_binary(Data,latin1,
+ case get(unicode) of
+ true -> unicode;
+ _ -> latin1
+ end);
+ Undef ->
+ Undef
+ end,
+ put_chars(Result, Port, Q);
+io_request({get_chars,Enc,Prompt,N}, Port, Q) -> % New in R9C
+ get_chars(Prompt, io_lib, collect_chars, N, Port, Q, Enc);
+io_request({get_line,Enc,Prompt}, Port, Q) ->
+ case get(read_mode) of
+ binary ->
+ get_line_bin(Prompt,Port,Q,Enc);
+ _ ->
+ get_chars(Prompt, io_lib, collect_line, [], Port, Q, Enc)
+ end;
+io_request({get_until,Enc,Prompt,M,F,As}, Port, Q) ->
+ get_chars(Prompt, io_lib, get_until, {M,F,As}, Port, Q, Enc);
+%% End New in R13B
+io_request(getopts, Port, Q) ->
+ getopts(Port, Q);
+io_request({setopts,Opts}, Port, Q) when is_list(Opts) ->
+ setopts(Opts, Port, Q);
+io_request({requests,Reqs}, Port, Q) ->
+ io_requests(Reqs, {ok,ok,Q}, Port);
+
+%% New in R12
+io_request({get_geometry,columns},Port,Q) ->
+ case get_fd_geometry(Port) of
+ {W,_H} ->
+ {ok,W,Q};
+ _ ->
+ {error,{error,enotsup},Q}
+ end;
+io_request({get_geometry,rows},Port,Q) ->
+ case get_fd_geometry(Port) of
+ {_W,H} ->
+ {ok,H,Q};
+ _ ->
+ {error,{error,enotsup},Q}
+ end;
+%% BC with pre-R13 nodes
+io_request({put_chars,Chars}, Port, Q) ->
+ io_request({put_chars,latin1,Chars}, Port, Q);
+io_request({put_chars,Mod,Func,Args}, Port, Q) ->
+ io_request({put_chars,latin1,Mod,Func,Args}, Port, Q);
+io_request({get_chars,Prompt,N}, Port, Q) ->
+ io_request({get_chars,latin1,Prompt,N}, Port, Q);
+io_request({get_line,Prompt}, Port, Q) ->
+ io_request({get_line,latin1,Prompt}, Port, Q);
+io_request({get_until,Prompt,M,F,As}, Port, Q) ->
+ io_request({get_until,latin1,Prompt,M,F,As}, Port, Q);
+
+io_request(R, _Port, Q) -> %Unknown request
+ {error,{error,{request,R}},Q}. %Ignore but give error (?)
+
+%% Status = io_requests(RequestList, PrevStat, Port)
+%% Process a list of output requests as long as the previous status is 'ok'.
+
+io_requests([R|Rs], {ok,_Res,Q}, Port) ->
+ io_requests(Rs, io_request(R, Port, Q), Port);
+io_requests([_|_], Error, _) ->
+ Error;
+io_requests([], Stat, _) ->
+ Stat.
+
+%% put_port(DeepList, Port)
+%% Take a deep list of characters, flatten and output them to the
+%% port.
+
+put_port(List, Port) ->
+ send_port(Port, {command, List}).
+
+%% send_port(Port, Command)
+
+send_port(Port, Command) ->
+ Port ! {self(),Command}.
+
+%% io_reply(From, ReplyAs, Reply)
+%% The function for sending i/o command acknowledgement.
+%% The ACK contains the return value.
+
+io_reply(From, ReplyAs, Reply) ->
+ From ! {io_reply,ReplyAs,Reply}.
+
+%% put_chars
+put_chars(Chars, Port, Q) when is_binary(Chars) ->
+ put_port(Chars, Port),
+ {ok,ok,Q};
+put_chars(Chars, Port, Q) ->
+ case catch list_to_binary(Chars) of
+ Binary when is_binary(Binary) ->
+ put_chars(Binary, Port, Q);
+ _ ->
+ {error,{error,put_chars},Q}
+ end.
+
+expand_encoding([]) ->
+ [];
+expand_encoding([latin1 | T]) ->
+ [{encoding,latin1} | expand_encoding(T)];
+expand_encoding([unicode | T]) ->
+ [{encoding,unicode} | expand_encoding(T)];
+expand_encoding([H|T]) ->
+ [H|expand_encoding(T)].
+
+%% setopts
+setopts(Opts0,Port,Q) ->
+ Opts = proplists:unfold(
+ proplists:substitute_negations(
+ [{list,binary}],
+ expand_encoding(Opts0))),
+ case check_valid_opts(Opts) of
+ true ->
+ do_setopts(Opts,Port,Q);
+ false ->
+ {error,{error,enotsup},Q}
+ end.
+check_valid_opts([]) ->
+ true;
+check_valid_opts([{binary,_}|T]) ->
+ check_valid_opts(T);
+check_valid_opts([{encoding,Valid}|T]) when Valid =:= latin1; Valid =:= utf8; Valid =:= unicode ->
+ check_valid_opts(T);
+check_valid_opts(_) ->
+ false.
+
+do_setopts(Opts, _Port, Q) ->
+ case proplists:get_value(encoding,Opts) of
+ Valid when Valid =:= unicode; Valid =:= utf8 ->
+ put(unicode,true);
+ latin1 ->
+ put(unicode,false);
+ undefined ->
+ ok
+ end,
+ case proplists:get_value(binary, Opts) of
+ true ->
+ put(read_mode,binary),
+ {ok,ok,Q};
+ false ->
+ put(read_mode,list),
+ {ok,ok,Q};
+ _ ->
+ {ok,ok,Q}
+ end.
+
+getopts(_Port,Q) ->
+ Bin = {binary, case get(read_mode) of
+ binary ->
+ true;
+ _ ->
+ false
+ end},
+ Uni = {encoding, case get(unicode) of
+ true ->
+ unicode;
+ _ ->
+ latin1
+ end},
+ {ok,[Bin,Uni],Q}.
+
+
+get_line_bin(Prompt,Port,Q, Enc) ->
+ prompt(Port, Prompt),
+ case {get(eof),queue:is_empty(Q)} of
+ {true,true} ->
+ {ok,eof,Q};
+ _ ->
+ get_line(Prompt,Port, Q, [], Enc)
+ end.
+get_line(Prompt, Port, Q, Acc, Enc) ->
+ case queue:is_empty(Q) of
+ true ->
+ receive
+ {Port,{data,Bytes}} ->
+ get_line_bytes(Prompt, Port, Q, Acc, Bytes, Enc);
+ {Port, eof} ->
+ put(eof, true),
+ {ok, eof, []};
+ {io_request,From,ReplyAs,{get_geometry,_}=Req} when is_pid(From) ->
+ do_io_request(Req, From, ReplyAs, Port,
+ queue:new()),
+ %% No prompt.
+ get_line(Prompt, Port, Q, Acc, Enc);
+ {io_request,From,ReplyAs,Request} when is_pid(From) ->
+ do_io_request(Request, From, ReplyAs, Port, queue:new()),
+ prompt(Port, Prompt),
+ get_line(Prompt, Port, Q, Acc, Enc);
+ {'EXIT',From,What} when node(From) =:= node() ->
+ {exit,What}
+ end;
+ false ->
+ get_line_doit(Prompt, Port, Q, Acc, Enc)
+ end.
+
+get_line_bytes(Prompt, Port, Q, Acc, Bytes, Enc) ->
+ case get(shell) of
+ noshell ->
+ get_line_doit(Prompt, Port, queue:snoc(Q, Bytes),Acc,Enc);
+ _ ->
+ case contains_ctrl_g_or_ctrl_c(Bytes) of
+ false ->
+ get_line_doit(Prompt, Port, queue:snoc(Q, Bytes), Acc, Enc);
+ _ ->
+ throw(new_shell)
+ end
+ end.
+is_cr_at(Pos,Bin) ->
+ case Bin of
+ <<_:Pos/binary,$\r,_/binary>> ->
+ true;
+ _ ->
+ false
+ end.
+srch(<<>>,_,_) ->
+ nomatch;
+srch(<<X:8,_/binary>>,X,N) ->
+ {match,[{N,1}]};
+srch(<<_:8,T/binary>>,X,N) ->
+ srch(T,X,N+1).
+get_line_doit(Prompt, Port, Q, Accu, Enc) ->
+ case queue:is_empty(Q) of
+ true ->
+ case get(eof) of
+ true ->
+ case Accu of
+ [] ->
+ {ok,eof,Q};
+ _ ->
+ {ok,binrev(Accu,[]),Q}
+ end;
+ _ ->
+ get_line(Prompt, Port, Q, Accu, Enc)
+ end;
+ false ->
+ Bin = queue:head(Q),
+ case srch(Bin,$\n,0) of
+ nomatch ->
+ X = byte_size(Bin)-1,
+ case is_cr_at(X,Bin) of
+ true ->
+ <<D:X/binary,_/binary>> = Bin,
+ get_line_doit(Prompt, Port, queue:tail(Q),
+ [<<$\r>>,D|Accu], Enc);
+ false ->
+ get_line_doit(Prompt, Port, queue:tail(Q),
+ [Bin|Accu], Enc)
+ end;
+ {match,[{Pos,1}]} ->
+ %% We are done
+ PosPlus = Pos + 1,
+ case Accu of
+ [] ->
+ {Head,Tail} =
+ case is_cr_at(Pos - 1,Bin) of
+ false ->
+ <<H:PosPlus/binary,
+ T/binary>> = Bin,
+ {H,T};
+ true ->
+ PosMinus = Pos - 1,
+ <<H:PosMinus/binary,
+ _,_,T/binary>> = Bin,
+ {binrev([],[H,$\n]),T}
+ end,
+ case Tail of
+ <<>> ->
+ {ok, cast(Head,Enc), queue:tail(Q)};
+ _ ->
+ {ok, cast(Head,Enc),
+ queue:cons(Tail, queue:tail(Q))}
+ end;
+ [<<$\r>>|Stack1] when Pos =:= 0 ->
+ <<_:PosPlus/binary,Tail/binary>> = Bin,
+ case Tail of
+ <<>> ->
+ {ok, cast(binrev(Stack1, [$\n]),Enc),
+ queue:tail(Q)};
+ _ ->
+ {ok, cast(binrev(Stack1, [$\n]),Enc),
+ queue:cons(Tail, queue:tail(Q))}
+ end;
+ _ ->
+ {Head,Tail} =
+ case is_cr_at(Pos - 1,Bin) of
+ false ->
+ <<H:PosPlus/binary,
+ T/binary>> = Bin,
+ {H,T};
+ true ->
+ PosMinus = Pos - 1,
+ <<H:PosMinus/binary,
+ _,_,T/binary>> = Bin,
+ {[H,$\n],T}
+ end,
+ case Tail of
+ <<>> ->
+ {ok, cast(binrev(Accu,[Head]),Enc),
+ queue:tail(Q)};
+ _ ->
+ {ok, cast(binrev(Accu,[Head]),Enc),
+ queue:cons(Tail, queue:tail(Q))}
+ end
+ end
+ end
+ end.
+
+binrev(L, T) ->
+ list_to_binary(lists:reverse(L, T)).
+
+%% is_cr_at(Pos,Bin) ->
+%% case Bin of
+%% <<_:Pos/binary,$\r,_/binary>> ->
+%% true;
+%% _ ->
+%% false
+%% end.
+
+%% collect_line_bin_re(Bin,_Data,Stack,_) ->
+%% case re:run(Bin,<<"\n">>) of
+%% nomatch ->
+%% X = byte_size(Bin)-1,
+%% case is_cr_at(X,Bin) of
+%% true ->
+%% <<D:X/binary,_/binary>> = Bin,
+%% [<<$\r>>,D|Stack];
+%% false ->
+%% [Bin|Stack]
+%% end;
+%% {match,[{Pos,1}]} ->
+%% PosPlus = Pos + 1,
+%% case Stack of
+%% [] ->
+%% case is_cr_at(Pos - 1,Bin) of
+%% false ->
+%% <<Head:PosPlus/binary,Tail/binary>> = Bin,
+%% {stop, Head, Tail};
+%% true ->
+%% PosMinus = Pos - 1,
+%% <<Head:PosMinus/binary,_,_,Tail/binary>> = Bin,
+%% {stop, binrev([],[Head,$\n]),Tail}
+%% end;
+%% [<<$\r>>|Stack1] when Pos =:= 0 ->
+
+%% <<_:PosPlus/binary,Tail/binary>> = Bin,
+%% {stop,binrev(Stack1, [$\n]),Tail};
+%% _ ->
+%% case is_cr_at(Pos - 1,Bin) of
+%% false ->
+%% <<Head:PosPlus/binary,Tail/binary>> = Bin,
+%% {stop,binrev(Stack, [Head]),Tail};
+%% true ->
+%% PosMinus = Pos - 1,
+%% <<Head:PosMinus/binary,_,_,Tail/binary>> = Bin,
+%% {stop, binrev(Stack,[Head,$\n]),Tail}
+%% end
+%% end
+%% end.
+%% get_chars(Prompt, Module, Function, XtraArg, Port, Queue)
+%% Gets characters from the input port until the applied function
+%% returns {stop,Result,RestBuf}. Does not block output until input
+%% has been received.
+%% Returns:
+%% {Status,Result,NewQueue}
+%% {exit,Reason}
+
+%% Entry function.
+get_chars(Prompt, M, F, Xa, Port, Q, Fmt) ->
+ prompt(Port, Prompt),
+ case {get(eof),queue:is_empty(Q)} of
+ {true,true} ->
+ {ok,eof,Q};
+ _ ->
+ get_chars(Prompt, M, F, Xa, Port, Q, start, Fmt)
+ end.
+
+%% First loop. Wait for port data. Respond to output requests.
+get_chars(Prompt, M, F, Xa, Port, Q, State, Fmt) ->
+ case queue:is_empty(Q) of
+ true ->
+ receive
+ {Port,{data,Bytes}} ->
+ get_chars_bytes(State, M, F, Xa, Port, Q, Bytes, Fmt);
+ {Port, eof} ->
+ put(eof, true),
+ {ok, eof, []};
+ %%{io_request,From,ReplyAs,Request} when is_pid(From) ->
+ %% get_chars_req(Prompt, M, F, Xa, Port, queue:new(), State,
+ %% Request, From, ReplyAs);
+ {io_request,From,ReplyAs,{get_geometry,_}=Req} when is_pid(From) ->
+ do_io_request(Req, From, ReplyAs, Port,
+ queue:new()), %Keep Q over this call
+ %% No prompt.
+ get_chars(Prompt, M, F, Xa, Port, Q, State, Fmt);
+ {io_request,From,ReplyAs,Request} when is_pid(From) ->
+ get_chars_req(Prompt, M, F, Xa, Port, Q, State,
+ Request, From, ReplyAs, Fmt);
+ {'EXIT',From,What} when node(From) =:= node() ->
+ {exit,What}
+ end;
+ false ->
+ get_chars_apply(State, M, F, Xa, Port, Q, Fmt)
+ end.
+
+get_chars_req(Prompt, M, F, XtraArg, Port, Q, State,
+ Req, From, ReplyAs, Fmt) ->
+ do_io_request(Req, From, ReplyAs, Port, queue:new()), %Keep Q over this call
+ prompt(Port, Prompt),
+ get_chars(Prompt, M, F, XtraArg, Port, Q, State, Fmt).
+
+%% Second loop. Pass data to client as long as it wants more.
+%% A ^G in data interrupts loop if 'noshell' is not undefined.
+get_chars_bytes(State, M, F, Xa, Port, Q, Bytes, Fmt) ->
+ case get(shell) of
+ noshell ->
+ get_chars_apply(State, M, F, Xa, Port, queue:snoc(Q, Bytes),Fmt);
+ _ ->
+ case contains_ctrl_g_or_ctrl_c(Bytes) of
+ false ->
+ get_chars_apply(State, M, F, Xa, Port,
+ queue:snoc(Q, Bytes),Fmt);
+ _ ->
+ throw(new_shell)
+ end
+ end.
+
+get_chars_apply(State0, M, F, Xa, Port, Q, Fmt) ->
+ case catch M:F(State0, cast(queue:head(Q),Fmt), Fmt, Xa) of
+ {stop,Result,<<>>} ->
+ {ok,Result,queue:tail(Q)};
+ {stop,Result,[]} ->
+ {ok,Result,queue:tail(Q)};
+ {stop,Result,eof} ->
+ {ok,Result,queue:tail(Q)};
+ {stop,Result,Buf} ->
+ {ok,Result,queue:cons(Buf, queue:tail(Q))};
+ {'EXIT',_} ->
+ {error,{error,err_func(M, F, Xa)},queue:new()};
+ State1 ->
+ get_chars_more(State1, M, F, Xa, Port, queue:tail(Q), Fmt)
+ end.
+
+get_chars_more(State, M, F, Xa, Port, Q, Fmt) ->
+ case queue:is_empty(Q) of
+ true ->
+ case get(eof) of
+ undefined ->
+ receive
+ {Port,{data,Bytes}} ->
+ get_chars_bytes(State, M, F, Xa, Port, Q, Bytes, Fmt);
+ {Port,eof} ->
+ put(eof, true),
+ get_chars_apply(State, M, F, Xa, Port,
+ queue:snoc(Q, eof), Fmt);
+ {'EXIT',From,What} when node(From) =:= node() ->
+ {exit,What}
+ end;
+ _ ->
+ get_chars_apply(State, M, F, Xa, Port, queue:snoc(Q, eof), Fmt)
+ end;
+ false ->
+ get_chars_apply(State, M, F, Xa, Port, Q, Fmt)
+ end.
+
+
+%% prompt(Port, Prompt)
+%% Print Prompt onto Port
+
+%% common case, reduces execution time by 20%
+prompt(_Port, '') -> ok;
+
+prompt(Port, Prompt) ->
+ put_port(io_lib:format_prompt(Prompt), Port).
+
+%% Convert error code to make it look as before
+err_func(io_lib, get_until, {_,F,_}) ->
+ F;
+err_func(_, F, _) ->
+ F.
+
+%% using regexp reduces execution time by >50% compared to old code
+%% running two regexps in sequence is much faster than \\x03|\\x07
+contains_ctrl_g_or_ctrl_c(BinOrList)->
+ case {re:run(BinOrList, <<3>>),re:run(BinOrList, <<7>>)} of
+ {nomatch, nomatch} -> false;
+ _ -> true
+ end.
+
+%% Convert a buffer between list and binary
+cast(Data, _Format) when is_atom(Data) ->
+ Data;
+cast(Data, Format) ->
+ cast(Data, get(read_mode), Format, get(unicode)).
+
+cast(B, binary, latin1, false) when is_binary(B) ->
+ B;
+cast(B, binary, latin1, true) when is_binary(B) ->
+ unicode:characters_to_binary(B, unicode, latin1);
+cast(L, binary, latin1, false) ->
+ erlang:iolist_to_binary(L);
+cast(L, binary, latin1, true) ->
+ case unicode:characters_to_binary(
+ erlang:iolist_to_binary(L),unicode,latin1) of % may fail
+ {error,_,_} -> exit({no_translation, unicode, latin1});
+ Else -> Else
+ end;
+cast(B, binary, unicode, true) when is_binary(B) ->
+ B;
+cast(B, binary, unicode, false) when is_binary(B) ->
+ unicode:characters_to_binary(B,latin1,unicode);
+cast(L, binary, unicode, true) ->
+ % possibly a list containing UTF-8 encoded characters
+ unicode:characters_to_binary(erlang:iolist_to_binary(L));
+cast(L, binary, unicode, false) ->
+ unicode:characters_to_binary(L, latin1, unicode);
+cast(L, list, latin1, UniTerm) ->
+ case UniTerm of
+ true -> % Convert input characters to protocol format (i.e latin1)
+ case unicode:characters_to_list(
+ erlang:iolist_to_binary(L),unicode) of % may fail
+ {error,_,_} -> exit({no_translation, unicode, latin1});
+ Else -> [ case X of
+ High when High > 255 ->
+ exit({no_translation, unicode, latin1});
+ Low ->
+ Low
+ end || X <- Else ]
+ end;
+ _ ->
+ binary_to_list(erlang:iolist_to_binary(L))
+ end;
+cast(L, list, unicode, UniTerm) ->
+ unicode:characters_to_list(erlang:iolist_to_binary(L),
+ case UniTerm of
+ true -> unicode;
+ _ -> latin1
+ end);
+cast(Other, _, _,_) ->
+ Other.
+
+wrap_characters_to_binary(Chars,unicode,latin1) ->
+ case unicode:characters_to_binary(Chars,unicode,latin1) of
+ {error,_,_} ->
+ list_to_binary(
+ [ case X of
+ High when High > 255 ->
+ ["\\x{",erlang:integer_to_list(X, 16),$}];
+ Low ->
+ Low
+ end || X <- unicode:characters_to_list(Chars,unicode) ]);
+ Bin ->
+ Bin
+ end;
+
+wrap_characters_to_binary(Bin,From,From) when is_binary(Bin) ->
+ Bin;
+wrap_characters_to_binary(Chars,From,To) ->
+ unicode:characters_to_binary(Chars,From,To).